Method for product demonstration

ABSTRACT

Conducting a video conference as part of the operation or demonstration of an appliance.

CROSS-REFERENCE TO RELATED APPLICATION

This application is a continuation-in-part of U.S. application Ser. No. 11/617,793 filed Dec. 29, 2006, which is a continuation-in-part of International Patent Application No. PCT/US2006/022420, filed Jun. 8, 2006, and International Patent Application No. PCT/US2006/022503, filed Jun. 9, 2006.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The invention relates to demonstrations of products offered for sale, and more particularly to systems and methods to effect sales demonstrations of products.

2. Description of the Related Art

Products are often made in a variety of models, each having more or less components that offer different features and operational modes. Cars and computers, for example, often have dozens of configurations across the same product line. Household appliances are manufactured in a large variety of shapes, sizes, and colors, and with many different operating features. Vendors of these products typically employ sales persons to demonstrate the various features of a product to potential purchasers.

Manufacturers often make demonstration models of their products for the express purpose of enabling customer demonstrations of the features that the manufacturer wishes to highlight. A demonstrational or demo home appliance not available for purchase may be semi-functional, built to look the same as a production line appliance, but missing many operational elements. For example, a demonstration oven might have the capability to guide a user through an input sequence for specifying cooking temperature and cooking time, but no heat elements would be included in the demo oven. Because demo appliances are not constructed with the same elements and functionality as a production line appliance, the two versions of the appliance must be manufactured separately, which complicates the manufacturing process and adds costs.

It is also known to incorporate software into a product that will cause the product to go into a demonstration mode in order to show selected features of the product. For example, a television might be instructed to play a demonstration video while showing different features of a built-in audio system. Home appliances are sometimes manufactured so that they may be operated in a demo mode. In such cases, it is known to upload or change embedded demonstration software in a product such as an appliance as demonstration needs change. But too often, the needs of a sales demonstration far exceed the capability of built-in software to accommodate them.

It is also known for a manufacturer to hard-code a demo mode into a product such as an appliance before shipping the product to a vendor. Demonstrations are thus not tailored to target the needs of each individual vendor, and promotional offers, which only last a short amount of time, cannot be included in the demonstrations. In rare instances, a computer can be connected to the appliance to alter the programming. However, this involves disassembling the appliance and/or re-writing the code, necessitating the involvement of experienced mechanics and/or programmers. As this consumes excessive time and resources, most demo appliances are simply discarded when the demonstration becomes outdated.

SUMMARY OF THE INVENTION

The invention is directed to a method of demonstrating an appliance comprising multiple components having corresponding functionality, at least one microprocessor controller with control logic coupled with the multiple components via an internal communications network to implement any of a plurality of predetermined cycles of operation performing a physical domestic operation on an article by way of a first software operating layer in a first operating state and wherein the control logic by way of the first software operating layer is rendered ineffective unless invoked by way of a second software operating layer, a multimedia user interface coupled to the microprocessor control, and memory connected to the internal communications network and in communication with the microprocessor controller and having updatable demonstration software comprising demonstration of a functionality of a feature of the appliance. The method includes executing the demonstration software on the microprocessor controller by way of the second software operating layer in a second operating state to bypass the control logic to effect a demonstration of a functionality of a feature of the appliance in the second operating state, independent of implementing or demonstrating any of the plurality of predetermined cycles of operation in the first software operating state and without performing the physical domestic operation on the article; and establishing a video conference over the multimedia user interface between a sales representative and a consumer to enable interaction between the sales representative and the consumer in conjunction with the demonstration of the functionality of the feature in the second operating state.

BRIEF DESCRIPTION OF THE DRAWINGS

In the drawings:

FIG. 1 is a schematic illustration showing a household appliance having an internal communication network connected to a smart device according to the invention.

FIG. 2 is a schematic illustration of the household appliance and the connected smart device of FIG. 1 and further incorporating a plurality of connected demo devices.

FIG. 3 is a schematic illustration of the smart device of FIG. 1 in use with a component of the appliance and a demo device and showing the capabilities of the component and the demo device.

FIG. 4 is a schematic illustration of the smart device, component, and demo device of FIG. 4 and showing communication via messages therebetween.

FIG. 5 is a perspective view of a dryer capable of connecting to a smart device according to one embodiment of the invention.

FIG. 6 is a schematic illustration of the interior of the dryer of FIG. 5.

FIG. 7 is a perspective view of a user interface on the dryer of FIG. 5.

FIG. 8 is a flow chart illustrating normal operation of the dryer of FIG. 5.

FIG. 9 is a perspective view of a smart device for connection to the dryer of FIG. 5.

FIG. 10 is a perspective view of an LCD monitor for connection to the smart device of FIG. 9.

FIG. 11 is a perspective view of an air flow demo unit for connection the dryer of FIG. 5.

FIG. 12 is a perspective view of the smart device of FIG. 9, the LCD monitor of FIG. 10, and the air flow demo unit of FIG. 11 in use with the dryer of FIG. 5.

FIG. 13 is a flow chart illustrating a sales demo to be executed and performed by the smart device, LCD monitor, air flow demo unit, and dryer of FIG. 12.

FIG. 14 is a schematic illustration of a business method for use with the invention of FIG. 12.

FIG. 15 is a flow chart illustrating the affect of various factors on business concepts for inclusion in the sales demo of FIG. 13.

FIG. 16 is a perspective view of a dryer having a multimedia user interface according to another embodiment of the invention.

FIG. 17 is a schematic drawing of a controller having an integrated smart device for the dryer of FIG. 16.

FIG. 18 is a schematic drawing of a network connection between the dryer of FIG. 16 and remote third parties.

FIG. 19 is a schematic drawing of two dryers of FIG. 16 in communication over a communication network.

DETAILED DESCRIPTION

The invention provides a way to enable a production line product to operate in a demonstration mode, completely controlled from an external device adapted for that purpose. And it does much more as explained below. The invention centers around a smart device connectable to any production product having an internal communications network connecting two or more functional components. The smart device contains demonstration software capable of assuming control of the components in the product and operating them independently of a sales person, but interactively with a potential customer. An example of such a product might be a hybrid automobile with an internal communications network connecting an electric motor with a gasoline engine. The smart device in accord with the invention, can demonstrate features of the automobile inside a showroom in a demonstration mode without having to start the gasoline engine. Another common product type for which the invention can find applicability is in the field of home appliances.

Household appliances typically comprise one or more components which perform the electromechanical operations of the appliance. By employing a software architecture that enables facile communication between internal components of an appliance and between an external component and one or more of the internal components of the appliance, various components and accessories can communicate with the appliance to expand the capability, functionality, and usability of the appliance. The appliance can be any suitable appliance, such as a household appliance. Examples of household appliances include, but are not limited to, clothes washing machines, clothes dryers, ovens, dishwashers, refrigerators, freezers, microwave ovens, trash compactors, and countertop appliances, such as waffle makers, toasters, blenders, mixers, food processors, coffee makers, and the like.

The appliance can be configured to perform a cycle of operation to complete a physical domestic operation on an article. Examples of the physical domestic operations include a food preparation operation, a food preservation operation, a fluid treatment operation, a cleaning operation, a personal care operation, a fabric treatment operation, an air treatment operation, and a hard surface treatment operation. The air treatment operation can comprise, for example, air purification, air humidification, air dehumidification, air heating, and air cooling. The food preparation operation can comprise, for example, food cleaning, food chopping, food mixing, food heating, food peeling, and food cooling. The food preservation operation can comprise, for example, food cooling, food freezing, and food storage in a specialized atmosphere. The fluid treatment operation can comprise, for example, fluid heating, fluid boiling, fluid cooling, fluid freezing, fluid mixing, fluid whipping, fluid dispensing, fluid filtering, and fluid separation. The cleaning operation can comprise, for example, dishwashing, fabric washing, fabric treatment, fabric drying, hard surface cleaning, hard surface treatment, hard surface drying, carpet cleaning, carpet treatment, and carpet drying. The personal care operation can comprise, for example, hair treatment, nail treatment, body massaging, teeth cleaning, body cleaning, and shaving.

The internal components of the appliances can include anything that participates in the operation of the appliance. Examples include a controller (main controller, motor controller, user interface, etc.), which can be a simple microprocessor mounted on a printed circuit board, standing alone or associated with a corresponding device. Other examples include one or more devices such as pumps, motors, heaters, I/O devices and that like that may or may not be controlled by a controller. Typically, the controller components in cooperation either directly or indirectly, through other components, control the operation of all of the components and the associated devices to implement an operation or cycle for the appliance.

The software architecture can be implemented on and communicate over an internal communications network on the appliance. The internal communications network connects the various internal components of the appliance and can be considered a closed network. One example of the internal communications network used within an appliance is the WIDE network protocol, created by Whirlpool Corporation, the assignee of the present patent application.

The software architecture can also expand the communication ability of the appliance by effectively creating an open network. Within the appliance, the software architecture can, but does not have to, reside on each of the components that have a controller. Those components with the software architecture form a network node that can communicate with the other nodes.

The software architecture can perform multiple functions. For example, one function can relate to identifying each of the components corresponding to a node on the network, while another function can relate to identifying capabilities or functions of the identified components on the network. Yet another exemplary function is to identify the status of the components on the network. In this way, the software architecture can function to inform all of the nodes on the network of the presence, capabilities, and status of the other nodes.

The software architecture can comprise multiple modules, each of which has different functionality. Various combinations of the modules or all of the modules can reside on each of the components. One module having a basic or core functionality resides on all of the components. In one anticipated configuration, all of the modules reside at least on the main controller, which establishes the main controller to function as a primary or main software architecture, with the other nodes functioning in a client relationship to the main software architecture. In such a configuration, all of the nodes can communicate through the main software architecture. The software architecture can be sufficiently robust that it can permit configurations without a main software architecture or with multiple main software architectures. For example, the controllers of the various components can work together to control the operation of the appliance without any one of the appliances functioning as a main controller. Regardless of the configuration, any component with the software architecture can function as a client with respect to the other components.

Because of the software architecture, the internal components of the appliance are not only connected with one another, but the internal components can also be connected to one or more external components or a new internal component through the network. The external component and/or the new internal component has one, some, or all of the software architecture modules in resident. As a result, the external component and/or the new internal component can communicate with the internal components of the appliance and can also communicate with other external components having the software architecture.

The software architecture can enable communication between the internal components of the appliance and the external component and/or the new internal component or between components external to the appliance. An example of such a software architecture is disclosed in the parent Application No. PCT/US2006/022420, titled “SOFTWARE ARCHITECTURE SYSTEM AND METHOD FOR COMMUNICATION WITH, AND MANAGEMENT OF, AT LEAST ONE COMPONENT WITHIN A HOUSEHOLD APPLIANCE,” filed Jun. 8, 2006, and incorporated herein by reference in its entirety. All of the communications between internal and external components and/or any combination of components described in this application can be implemented by the software and network structures disclosed in this application.

The software architecture can be implemented by providing one or more of the software elements of the software architecture at least on each of the internal and external components to be controlled. The software architecture is preferably configured to generate a plurality of messages, with at least one of the software elements residing in each of the components and configured to enable transmission of at least one of the plurality of messages between the components. The messages can be transmitted for bi-directional communication between components. The messages can include command messages that are used to implement a physical domestic operation cycle of the appliance.

The messages can be generated by a message generator, which can take the form of the software architecture, an external component, or an internal component. One possible message generator is a user interface. It will thus be apparent that an internal communications network in the product can be formed of the software architecture resident on a single controller, which, in turn, is connected to one or more devices, none of which have its own controller or software. Also, the internal communications network can be formed of multiple devices, any one or more of which may have a separate controller.

FIG. 1 illustrates the invention in the context of a household appliance, designated generally by the numeral 10 in a schematic diagram. The appliance 10 in this embodiment can be any from the group of appliances discussed previously, or any similar product. The appliance 10 preferably includes the previously discussed software architecture having an internal communication network 12 interconnecting a plurality of components 14, wherein each component is capable of communicating with the network 12 by way of the software architecture. The components 14 are conventional and include, for example, motor control microprocessors, key pads, timers, displays, and other devices and controls typically included within the household appliance 10. It is to be understood that the appliance 10 in the context of the invention is a production unit that can be purchased by a customer from a vendor for immediate use without modifications.

The appliance 10 can include a user interface 16 as is commonly used with appliances. The user interface 16 enables a user to actuate and specify the parameters for various operations of the appliance 10. The user interface 16 can include, but is not limited to, any number of well-known features, such as a digital display, speakers, a touch screen, a key pad, buttons, switches, dials, lights, and the like.

The household appliance 10 has an internal/external communications connection 18. The internal/external communications connection 18 can be any suitable connecting device, such as a wire or wireless port, an Ethernet connector, a wireless-G connector, a USB port, a serial port, and the like. The internal/external communications connection 18 is capable of connecting to various network interface devices 20 for enabling communication with various external clients or devices. Examples of suitable external network interface devices 20 comprise any suitable and well-known serial, wireless, infrared, USB and TCP/IP device which would be apparent to one skilled in the art. The connection between the internal/external communications connection 18 and the network interface device 20 can be made permanent or temporary. One external client that can be connected to the appliance 10 via the internal/external communications connection 18 by way of the network interface devices 20 is a smart device 30, according to the invention. The smart device 30 is operably coupled to a network interface device 20.

Referring now also to FIG. 2, the smart device 30 can itself comprise a network interface device 20 for removably coupling to the internal/external communications connection 18 of the appliance 10. The smart device 30 comprises a read-write memory component 32 and a controlling component 34, and can be a dedicated device, or be incorporated in such devices as a laptop computer, remote control, a PDA, a cell phone, or a dongle. The smart device 30 can be powered by any suitable means, such as by an internal battery or from a connection to an outside power source. The smart device 30 can include power transmission means for delivering power to the appliance 10, such as through the communications connection 18. Since, according to the invention, the smart device 30 will control the appliance 10 in a sales demonstration mode, as explained below, it need only deliver enough power to the appliance to effectively operate such a mode. The smart device 30 can also be enabled to connect to other devices (such as the internet) by way of additional internal/external communications connections 18 and other network interface devices 20.

The smart device 30 will have its own software capable of communicating with the internal communication network 12 in the appliance 10. According to the invention, when the smart device 30 is coupled to the appliance 10, the smart device 30 assumes at least some control of the individual components 14 of the appliance 10. For example, the smart device 30 can assume complete control of the appliance 10 and command the appliance 10 to enter a passive state. The smart device 30 can automatically assume control of the appliance 10 upon connection of the smart device 30 to the internal/external communications connection 18. Alternatively, additional stimulation can be required to initiate control of the appliance 10 via the smart device 30, such as by flipping a switch on the smart device 30 or the appliance 10, or by entering a specific key sequence on the user interface 16. Once the smart device 30 has established control of the appliance 10, the smart device 30 can operate the various components 14 of the appliance 10 in a manner different than the components 14 would be operated during normal operation. This unique ability enables the smart device 30 to change the operational capabilities and behavior of the appliance 10 temporarily without requiring any modifications of the appliance 10 or its components 14.

The smart device 30 can use its memory component 32 to store sales demonstration software, for example, hereinafter referred to as “sales demos”, which can be accessed by the controlling component 34. The controlling component 34 can communicate with and control the appliance 10 to execute the sales demos. Sales demos can be designed to highlight features of the appliance 10 for the customer and can be interactive with the customer. Exemplary sales demos include, but are not limited to, video presentations, audio presentations, displaying promotions and/or advertisements, light and sound shows, textual displays, 3-D simulations, slideshows, voice feedback, key presses, voice command and control, motion sensing, mechanical system custom demonstrations, and any combination thereof. Sales demos can be updated, deleted, modified, and downloaded to the memory component 32 of the smart device 30. This can be accomplished by connecting a network interface device 20 to an appropriate source (such as the internet) by way of an internal/external communications connection 18 of the smart device 30. Examples of appropriate source include, but are not limited to, a computer, a PDA, a remote control, a cell phone, a dongle, an i-Pod®, the internet, and a USB drive. Sales demos can thus be made adaptable to the needs of different vendors and/or manufacturers by downloading different sales demos and/or modifying or updating existing sales demos accordingly.

As the software architecture enables control of individual components 14 of the appliance 10, the smart device 30 can take advantage of this capability and combine the control of the components 14 with the control of one or more demo devices 40. A demo device 40 can be a device external to the appliance 10 that aids in the presentation of sales demos. The demo devices 40 will be expected to have their operation controlled at least in part by the smart device 30. Examples of such devices include, but are not limited to, a proximity sensor, an LCD display, a speaker, a computer, a touch screen, a keyboard, a monitor, a mechanical device, a light display, a microphone, a camera, a phone, or the like. Demo devices 40 can be completely or partially controlled by the smart device 30. Demo devices 40 can be embedded in the smart device 10. Demo devices 40 can instead comprise a network interface connection 20 and can be connected to either the appliance 10 or to the smart device 30 via an additional internal/external communications connection 18. Each demo device 40 can be enabled with the same software architecture as the appliance 10 whereby the demo device 40 establishes a node on the internal communication network 12 or is part of an existing node on the network 12. If a demo device 40 is not enabled with the same software architecture as the appliance 10, the smart device 30 can optionally serve as a protocol bridge between the demo device 40 and the appliance 10. A protocol is a standard procedure for regulating data transmission between devices; however, not all devices necessarily communicate in the same protocol. A bridge effectively translates one protocol into another so that devices with different protocols can communicate with one another. Thus, the bridge functionality can be incorporated into the smart device 30 and the user does not need to purchase a separate bridge in order for the demo device 40 to communicate across the internal communication network 12.

In order to present the sales demos, the smart device 30 can utilize both the internal components 14 of the appliance 10 and/or demo devices 40, an example of which is illustrated in FIG. 3. An internal component 14 and a demo device 40 can each have visual output 44, audio output 46, and/or sensory output 48 capabilities which can serve a number of purposes, such as encouraging customers to interact with the appliance 10, offering product information and demonstrations, and presenting various promotions and advertisements. The internal component 14 and demo device 40 can also have visual input 54, audio input 56, and/or sensory input 58 capabilities which can serve additional purposes, such as answering customer questions, responding to customer commands, and collecting information regarding the customer and his or her behavior. The internal component 14 and demo device 40 can be controlled to operate passively or to require customer actuation for operation.

Referring now to FIG. 4, the smart device 30 can also command the internal component 14 and demo device 40 to work in combination with other internal components 14 and/or demo devices 40. For example, a component 14 or demo device 40 capable of receiving sensory input 58, such as a button or a motion sensor, can send a detailed message 60 across the internal communication network 12 upon receiving sensory input 58 from a customer. A demo device 40 or an internal component 14 having visual output 44 means, such as a light on the appliance 10 or an LCD screen hanging above the appliance 10, can receive the message 60 and provide certain visual output 44 responsive to the sensory input 58. The relationships between components 14 and demo devices 40 and the reactions to messages sent therebetween can be controlled by the smart device 30.

An example of a household appliance according to the invention is illustrated in FIGS. 5 and 6 as a dryer. The clothes dryer 100 described herein shares many features of a well-known automatic clothes dryer, and will not be described in detail except as necessary for a complete understanding of the invention. In this example, the dryer 100 includes a feature wherein the dryer 100 can adjust the pressure in the flow of air to accommodate different load types and different home venting systems. The dryer 100 includes a plurality of elements common to a dryer, such as a cabinet 102 having a user interface 104 for controlling the operation of the dryer 100, a partially translucent door 106 hingedly attached to a front wall 120 of the cabinet 102, a rear wall 124, and a pair of side walls 122 supporting a top wall 118. Two internal/external communications connections in the form of two USB ports 190, 192 are located on the user interface 104. A network adapter 194 is provided for connecting the appliance to a communications network, which may be either a public network, such as the Internet, or a private network.

Looking now more closely at FIG. 6, the interior 128 of the dryer 100 comprises a rotating drum 130 having an open front for access to the interior of the drum 130 which defines a drying chamber 132. The cabinet 102 also encloses a drum motor assembly 133 adapted in a well-known manner for rotating the drum 130 via a drum belt 134. A blower assembly 140, a flexible dryer hose or similar conduit 142, and a heater assembly 144 in fluid connection with one another and the drying chamber 132 are also enclosed by the cabinet 102. An exhaust (not shown) is provided in the rear wall 124 of the dryer 100 for connection to a home venting system (not shown) for venting air.

In normal operation of the dryer, a user first selects an appropriate drying cycle by means of the user interface 104. FIG. 7 illustrates various features that can be included on the user interface 104, including a power button 148, dryer status indicator lights 150, a dial 152, parameter adjusting buttons 154, a digital display 156, a start button 160, a stop button 162, a first parameter selection button 166, a first set of indicator lights 168, a second parameter selection button 170, and a second set of indicator lights 172, on/off buttons 178, and on/off indicator lights 180. These features can be marked with appropriate indicia to indicate their function. Selecting the drying cycle can require a user to manipulate several of these features to initiate operation and specify common drying cycle parameters. Examples of such parameters include, but are not limited to cycle type, heat level, dryness level, air level, temperature, and cycle length.

For the particular dryer 100 described herein, normal operation of the dryer 100 comprises a number of steps 65, 66, 67, 68, and 69 as illustrated in FIG. 8. Each step is illustrated herein as a box. A feature on the user interface 104 that can be manipulated to effect or affect a given step is illustrated as a circle having an arrow pointing therefrom towards the given step. A feature on the user interface 104 that produces visual output at a given step is illustrated as circle having an arrow pointing thereto from the given step. A first step that must be completed prior to the beginning of a second step is signified by a thickened arrows pointing from the first step towards the second step.

A user powers up the dryer 100 at a power-on step 65 by pressing the power button 148. At least one of the status indicator lights 150 associated with an “on” state of the dryer 100 will become lit upon pressing of the power button 148.

Next, a user can select the drying cycle parameters at a parameter selection step 66. The dial 152 can be rotated to select an appropriate drying cycle type. Examples of specific drying cycles include, but are not limited to, a touch-up cycle, an express dry cycle, a timed dry cycle, a heavy duty cycle, a cotton/towels cycle, a normal cycle, a bulky/bedding cycle, cottons cycle, a delicates cycle, a linens cycle. If the drying cycle type is a timed drying cycle, the user can select a desired cycle length using the parameter adjusting buttons 154 to adjust the number of minutes that the cycle will last. The user can also select a desired dryness level and a drying temperature using the first parameter selection button 166 and the second parameter selection button 170 respectively. The first set of indicator lights 168 and the second set of indicator lights 172 correspond to the first parameter selection button 166 and the second parameter selection button 170 respectively. Each light in each set 168, 172 correspond to a different dryness level and a different temperature level respectively. The buttons 166, 170 can be pressed repeatedly to select the different levels.

Once the parameter selection step 66 is complete, the user can press the start button 160 to begin the drying cycle step 67. As is well-known, the door 106 includes sensing means (not shown) to ensure that the drying cycle will not start if the door 106 is not closed. In accordance with the selected parameters, various components 14 of the dryer will perform a drying cycle. Throughout the drying cycle, the dryer status indicator lights 150 will reflect the operation of the dryer 100. The motor assembly 133 rotates the drum 130 via the belt 134. The blower assembly 140 draws air out of the drying chamber 132 and into a flexible dryer vent hose 142. The blower assembly 140 then circulates the air through a heater assembly 144 to heat the air. The heated air is then propelled through the hose 142 and into the drying chamber 132. Air is vented through the exhaust so as to remove moisture from the drying chamber 132. This cycle continues according the selected parameters. The motor assembly 133, blower assembly 140, and heater assembly 144 can operate at different levels during the drying cycle.

At any time during the cycle, the door 106 can be opened or the stop button 162 can be pressed to initiate a drying cycle end step 68. Once the drying cycle end step 68 has been completed, the dryer 100 can be completely shut off at a power-off step 69 by pressing the power button 148. This will cause the status indicator light 150 that was turned on during the power-on step 65 to turn off. Alternatively, after the drying cycle end step 68, new drying parameters can be entered at the parameter selection step 66. Steps 66, 67, and 68 can be repeated in sequence as many times as desired by a user.

On/off buttons 178 can preferably be pressed at any time during steps 66, 67, and 68 to activate or deactivate additional functions of the dryer 100. On/off indicator lights 180 indicate whether or not the additional functions are activated. Additional functions can include turning on a drum light for enabling easy viewing of the contents of the dryer 100, providing an audible signal to a user when clothes in the dryer 100 are partially dry, extending the drying cycle for additional length of time without heat after completion of the user-specified drying cycle in order to avoid wrinkling, and setting the volume of any audible signals generated by the dryer 100.

In order to demonstrate the dryer 100, according to the invention, a salesperson or other store personnel can provide a smart device 200, such as that shown in FIG. 9. The smart device 200 includes a network interface device in the form of a USB device 202. The USB device 202 is configured to be plugged into the USB port 190 on the user interface 104 of the dryer 100. The smart device 200 also comprises internal/external communications connections in the form of an Ethernet connector 204, two USB ports 208, 210, and a wireless port 212. The smart device 200 includes a rechargeable battery (not shown) that can be charged via USB port 210 by inserting an appropriate charger cord (not shown) into the port. Two speakers 216 for emitting sound are embedded in the smart device 200. The smart device 200 need not be disposed for customer access, but in this particular embodiment, the speakers need to be disposed so they can be heard. In the illustrated embodiment, the smart device 200 is mounted on a wall 218 behind the dryer 100 such that the speakers 216 are facing outward towards the customers.

Looking now at FIG. 10, a demo device in the form of an LCD monitor 220 includes a USB device configured to be plugged into the USB port 208 of the smart device 200. The LCD monitor 220 is disposed so that it can be seen by a customer. For example, it can rest on the dyer or be mounted to a separate stand or be mounted to a wall if proximate the dryer such as wall 218, etc. The LCD monitor 220 includes a screen 222 capable of displaying video and images. The LCD monitor 220 further comprises a smart camera 224 positioned inconspicuously on a portion thereof and configured to capture images of customers in the vicinity of the dryer 100. The smart camera 224 is able to distinguish between certain types of customers, such as males versus females and children versus adults. This information is available to the smart device 200. The LCD monitor 220 and camera 224 are powered by the smart device 200 via the USB port 208.

Looking now at FIG. 11, a demo device in the form of an air flow demo unit 230 comprises an elongated transparent conduit 232 and a lightweight ball 234 moveably disposed therein. The conduit 232 is removably mounted to the rear of the dryer 100. The conduit 232 is preferably a vertically-oriented hollow cylinder. The conduit 232 is rigid enough and suitably mounted so that it extends for a distance above the dryer 100 without necessitating additional support. The conduit 232 is formed of any material suitable for the purposes described herein, such as a transparent and rigid plastic. The ball 234 is preferably spherical in shape and has a diameter lightly less than the inner diameter of the conduit 232 so that it can freely move vertically therein. The ball 234 is preferably hollow and formed of a low density, low weight substance, such as a plastic. The ball 234 is formed so that it can be seen inside the conduit 232, such as by dyeing the ball 234 in a bright color such as red. A lower end of the conduit 232 comprises an opening 236 configured for connection to and airtight fluid communication with the exhaust of the dryer 100.

The various connections among the appliance 100, the smart device 200, and the demo devices 220, 230 can be seen in FIG. 12. The smart device 200 is connected to the dryer 100 by plugging the USB device 202 into the USB port 192 on the dryer 100. Once the smart device 200 is plugged in 304, the dryer 100 operates in a passive mode, and the smart device 200 assumes complete control of the dryer 100 to present a sales demo 240.

Looking now also at FIG. 13, the smart device 200 automatically powers up the dryer 100 upon being plugged in 304 and begins operation in an active sales demo mode 302, which will be discussed in more detail hereinafter. It is noted that the dryer 100 will be connected to a source of power sufficient to operate the blower 140. That source may be the smart device 200 itself or an independent source. The smart camera 224 and the user interface 104 on the dryer 100 continuously perform a check 243 for the presence 246 of customers throughout the entire sales demo 240. The smart camera 224 continuously searches for customers within a certain distance of the dryer 100. The user interface 104 also waits for and receives any input received from the customer. Customer presence 246 is detected through the manipulation of power button 148, dial 152, parameter adjusting buttons 154, start button 160, stop button 162, first parameter selection button 166, second parameter selection button 170, or on/off buttons 178, or by way of the smart camera 224 detecting a customer in close proximity to the dryer 100

The smart camera 224 can identify certain characteristics of customers using embedded software, such as approximate age and gender. The smart camera 224 can store records of these characteristics. The smart camera 224 can provide this information to the smart device 200 to enable to the smart device 200 to tailor the sales demo 240 to suit a particular customer. An example of such tailoring is targeting male and female customers separately by interchangeably presenting two demos using two different color schemes. One color scheme has been developed to elicit a more positive response from females, and one color scheme has been developed to elicit a more positive response from males. Other examples could include, but are not limited to, using different types of music, using different voices, using different advertising concepts, and highlighting different features.

If no customers are detected 244 within a certain distance of the dryer for a predetermined length of time specified by the sales demo 240, the smart device 200 switches the dryer 100 into a default sales demo mode 300. If a customer presence 246, the smart device 200 will switch the dryer 100 back to the active sales demo mode 302. The default sales mode 300 will also run if a customer presses 248 the stop button 162 at any time during the active mode 302.

In the default sales demo mode 300, the smart device 200 operates the dryer 100 to present a light show 306 using the dryer status indicator lights 150, the first set of indicator lights 168, the second set of indicator lights 172, and the on/off indicator lights 180. The various lights are turned on and off to produce a number of visually-stimulating patterns. The smart device 200 also operates the digital display 156 to output a variety of displays 308 designed to draw the attention of potential customers, such as a greeting or an aesthetically pleasing pattern. The smart device 200 can operate the LCD monitor 220 to display a variety of promotional offers 309, advertisements 310, and the like. One example would be displaying the text, “20% off, today only,” accompanied by eye-catching graphics depicting the dryer 100. The smart device 200 can operate the speakers 216 to output an invitational voice clip 314 inviting customers to interact with the dryer 100 as well. An example of such an invitational voice clip 314 could be an inviting phrase reciting “please press any button to learn about our featured dryer”.

If the user interface 104 detects that a customer presence 246, the smart device 200 will respond by converting to the active mode 302. The smart device 200 will first output an introductory voice clip 320 through speaker 216. The introductory voice clip 320 will comprise voice instructions inviting the customer to turn the dial 152 or press one of the buttons to learn about each feature of the dryer. The introductory voice clip 320 will also invite the customer to press the start button 160 to learn about the special drying air flow feature of the dryer 100. The introductory voice clip 320 includes instructions informing the customer that the stop button 162 can be pressed at any time to exit the dryer demonstration.

If a customer presses one of the buttons 148, 160, 162, 166, 170, 178, the smart device 200 will output a feature-specific voice clip 322 through the speaker 216. For example, if an on/off button 178 if pressed and the button 178 has indicia indicating it functions to turn a drying chamber light on and off, a feature-specific voice clip 322 could be played that says, “The light feature will allow you to view the contents of the dryer without halting dryer operation.” Throughout the active mode 302, the LCD monitor 220 also displays various video clips 324 to support the feature-specific voice clips 322. For example, as the speakers 216 output a voice saying “the light feature will allow you to view the contents of the dryer without halting dryer operation,” the LCD monitor 220 will show a video clip 324 of the light turning on and off while a number of clothing items are tumbling about the drying chamber.

In addition, the smart device 200 can operate the various components of the dryer 100 to further the quality of the sales demo 240 by providing a component demonstration 326. The component demonstration 326 can comprise operation of one or more internal components of the dryer 100 in order to demonstrate dryer operation. For example, in conjunction with the light-related feature-specific voice clip 322 and video clips 324 discussed above, the smart device 200 could instruct a component responsible for operating the light in the dryer 100 to switch the light on and off.

If a customer presses the start button 160, the air flow demo unit 230 can be used to present an air flow demo unit demonstration 330. The blower assembly 140 will be operated by the smart device 200 to produce varying rates of air flow in order to demonstrate the dryer's 100 unique air flow feature. The air will flow out the exhaust and into the conduit 232 to cause the ball 234 to move upwardly and downwardly in the conduit 232. The other components of the dryer 100 that would operate during normal operation of the dryer 100 will not be operated, such as the heater assembly 144 and the motor assembly 133. The blower assembly 140 will produce varying air flow rates will cause the ball to hover near the top of the conduit 232, at a point just above the user interface 104 so that a customer can still see the ball 234, and at a point therebetween. As the ball 234 is moved about, an air flow voice clip 334 will be emitted via speakers 216 that will explain the benefits of varying the air flow. The LCD monitor 220 can also display a corresponding air flow video clip 336 of a graph depicting the improved drying ability of the dryer 100 as compared to competitor's dryers. Upon completion of the air flow demo unit demonstration 330, the introductory voice clip 320 can be output by the speakers 216 once again.

The smart device 200 can be disconnected 337 from the dryer 100 at any time to halt operation 338 of the sales demo 240.

Looking now also at FIG. 14, a production unit of the dryer 100 having the capability to perform part or all of the aforementioned functions, depending upon model, is shipped by its manufacturer 196 to a vendor 198 for sale. Once at the vendor 198, the dryer 100 is put on display at a desired location where customers can walk about and view the dryer 100. The dryer 100 may be plugged into a power source, enabling it to be operated to the fullest extent of its capabilities, but more commonly, it will not be connected to a conventional power source. Here is where the invention is most useful.

Various sales demos 240 stored in the smart device 200 can be accessed and updated by connecting a computer 340 having a USB device 342 to USB port 210 of the smart device 200. Alternatively, the computer 340 can comprise a wireless device (not shown) and can be connected wirelessly to the smart device 200 via wireless port 212. This is simply a matter of preference and/or availability for each particular vendor 198 displaying the dryer 100. New sales demos 240 and sales demo updates 360 can also be downloaded via the computer 340. Existing sales demos 240 can be updated, modified, or deleted via the computer 340. The computer 340 comprises a connection to the internet 346 enabling access to a website 350. The website 350 is managed by either the manufacturer 196 or the vendor 198. The website 350 comprises a database 354 having a variety of sales demos 240 and/or sales demo updates 360 that can be downloaded to the smart device 200 using a specially-designed downloading program 352 installed on the computer 340. The downloading program 352 software can be downloaded from the website 350. The program 352 provides a simple interface or window serving to guide a user through the downloading process. The program 352 downloads the sales demos 240 to the smart device 200. The program 352 can also enable a user to modify certain characteristics of the sales demo 240. Modifiable characteristics can be designated within the sales demo 240 code.

The sales demos 240 can be downloaded to the smart device 200 and altered as previously described, which enables the vendor 198 to adapt the sales demos 240 to suit current business needs. Different sales demos 240 are available so as to enable vendors 198 to adapt the sales demos 240 for incorporation of a variety of business concepts 366 as shown in FIG. 15.

Business concepts 366 can include targeting regions 370, incorporating advertising campaigns 372, targeting demographics 374, reflecting marketing strategies 376, and/or including current promotions 378. The target region 370 and target demographic 374 are commonly designated by the vendor 198, as manufacturers 196 tend to supply appliances to numerous regions 370 and demographics 374. The advertising campaigns 372, marketing strategies 376, and current promotions 378 can be those of either the manufacturer 196 or the vendor 198. By differentiating the dryer 100 from other dryers on display at the vendor 198, the sales demos 240 can help improve sales of the dryer 100. The sales demos 240 can be customized according to the vendor 198 and trade partners of the manufacturer 196 of the dryer 100. Furthermore, by locating the sales demos 240 on the smart device 200, code for sales demos 240 that would traditionally reside on the dryer 100 can be removed from the dryer 100, thereby reducing development time and cost of the dryer 100. In addition, information gathered and stored by the smart camera 224 and the user interface 104 can be accessed by the manufacturer 196 and/or vendor 198 to generate customer profiles 380. Customer profiles 380 can then be used to generate advertising campaigns 372, marketing strategies 376, and the like.

It will be apparent from this disclosure that a manufacturer need only make production units of a product and offer them for sale through normal distribution channels. The invention provides a very flexible way to demonstrate the product by enabling a vendor to connect the smart device to a given production unit, install specific demonstration software on the smart device, and operate the smart device to assume control of the product in a demonstration mode. The sales demonstration can thus be targeted to a specific market, for example, geographically or demographically. The demonstration can be tailored to a specific vendor by simple software changes. It can be made fully interactive with a potential customer, and even tailored to the type of customer that the system might be configured to perceive.

FIG. 16 is another exemplary appliance according to the invention. FIG. 16 illustrates a dryer 400 that is substantially similar to the dryer 100 of FIG. 5, except that the user interface 104 has been replaced with a multimedia user interface 404 that includes an LCD touch screen display 405, which replaces many of the traditional knobs, buttons, switches, and lights of the user interface 100. Speakers 407 are disposed on opposite sides of the display 405. A camera 409 is located above the display 405. The camera 409 can be an analog or digital video or still camera, or a combination video/still camera capable of taking either video or still images. A microphone 411 is provided along a bottom of the display 405. An audio/video input port 413 is provided for which an audio/video source may be plugged and the video displayed on the display 405 and broadcast on the speakers 407. An audio/video output port 415 is provided for which an audio/video display device may be plugged and the video displayed thereon in addition to the display 405 and broadcast on the speakers 407. A data communications port 490 is provided below the display 405. The communications port 490 can be any suitable type, such as USB or Firewire. A network adapter 494 is provided for connecting the appliance to a communications network, which may be either a public network, such as the Internet, or a private network. The network adapter can be a wired network card or a wireless adapter.

FIG. 17 is a schematic of a multimedia controller 500, a part of which forms the smart device for the dryer 400. The multimedia controller 500 can be thought of as the smart device or it can be thought of as incorporating the smart device. Not all of the functionality of the multimedia controller 500 is necessary for performing the smart device functionality.

The multimedia controller 500 comprises a main processor system 502, which is a component to which all of the other components are connected and by which the controller 500 interacts with other components on the internal network of the appliance as well as an external network. For example, the main processor system 502 is coupled to WIDE Bus Driver 504, which establishes external communication with the Internal Appliance Network 506, which includes any other components on the Internal Appliance Network, and expressly includes any other controllers, circuit boards, processors, such as those for the motor and fan of the dryer in the dryer example. In this way, the multimedia controller 500 comprises yet another component on the internal network that is in communication with all of the other components.

The multimedia processor system 502 is coupled to both a non-volatile memory 508 and dynamic memory 510. The non-volatile memory 508 stores the operating software and other executable software for the multimedia user interface 500 along with the demonstration software. The non-volatile memory 508 can be of the type that is updatable, such a flash memory. In this way, the demonstration software stored in the non-volatile memory can be updated. The dynamic memory 510 stores applications and data related to the current operations of the multimedia controller 500. All or a portion of the demonstration software stored in the non-volatile memory 508 can be loaded into the dynamic memory upon execution of the demonstration software. The corresponding demonstration can then be updated in real time by new demonstration software, software elements or information in the dynamic memory as part of running the demonstration software.

A communication host 509 couples the communication port 494 to the multimedia processor system 502 and provides for the coupling of a memory or communication device 512 to the multimedia processor system 494. Exemplary types of host include a USB or Firewire host. The device 512 can store the demonstration software or updates to the demonstration software, which can be uploaded to either the dynamic memory 510 or the non-volatile memory 508. The device 512 can also be a device that adds additional functionality, like a network adapter. For example, there are wireless network adapters that connect via a USB connection.

The multimedia processor system 502 is also coupled to an Appliance I/O Drivers component 514, which is coupled to a Human/Machine Interface component 516, which includes any other input/output devices and related elements such as buttons, encoders, lights, etc.

An LCD video driver component 518 couples the multimedia processor system 502 to an LCD display 520 forming part of the LCD touch screen display 405. The video driver 518 controls the display of images on the LCD display 520. A touch screen driver component 522 couples the multimedia processor system to a touch screen input device 524 of the display 405. The touch screen input device can be a membrane that overlies the LCD display and determines the location of a contact with the screen. Such membranes can work in many different ways. Some are pressure sensitive and some are based on a change in capacitance.

A video input driver 526 couples the audio/video input port 413 to the multimedia processor system 502. An external audio/video source 528 can be coupled to the video input port 413 and its video signal is delivered to the multimedia processor system 502 via the video input driver 526. In this way, an external video device can be coupled to the appliance and its video displayed on the display 405.

An external audio/video device 529 connected to the audio/video output port 415 couples to the multimedia processor 502 through a video output drive 531 such that audio or video generated by the multimedia user interface can be displayed on the device 529.

A sound input driver component 530 couples the microphone 411 to the multimedia processor system 502 to provide sound within range of the microphone, especially the voice of a consumer in front of the appliance, to be transferred to the multimedia processor system 502.

An audio output component 532 couples the multimedia processor system 502 to the speakers 407. In that way, sound generated by a program, such as the demonstration program, can be broadcast on the speakers. Similarly, sound from the audio/video source can also be broadcast on the speakers. Sound from the microphone can also be broadcast on the speakers.

A camera input driver component 534 couples the camera 409 to the multimedia processor system. Images, video or still, from the camera will be sent to the multimedia process system 502 via the camera input driver 534. The multimedia process or can display the video on the display 405.

The multimedia processor system 502 in addition to displaying or broadcasting any of the audio/video on the display 405 and the speakers 407 can send the audio/video over the network adapter 494 for use by other appliances or devices. Similarly, the multimedia processor system 502 can receive audio/video over the network adapter from another appliance or device for display and broadcast on the display 405 and the speakers 407. The multimedia processor system 502 is capable of sending or receiving streaming audio/video over a network via the network adapter.

When the demonstration is to be performed on the appliance 400 with the multimedia user interface 404, the demonstration software is executed. The demonstration software takes over control of the appliance and begins two primary functions. The first is demonstrating one or more of the components of the appliance. The second is running a multimedia presentation on the multimedia user interface 500. The multimedia presentation can generally track or explain the demonstration of the components. It can also supplement the demonstration of the components and add media that goes beyond the mere demonstration of the components. The presentation will comprise any combination of visual and audio information, which can include any combination of video, still images, and sound.

The demonstration software can be stored in the non-volatile memory 510 and loaded as required to the dynamic memory 510 during execution of the program. It is anticipated that in most cases the demonstration instructions for the components and the presentation can be stored in the non-volatile memory 508 as a standard demonstration software. As the demonstration software is updated, the updated version can be downloaded and saved in the non-volatile memory via the network adapter. It is also contemplated that the demonstration software can be updated in real time as the demonstration software is being executed.

In the embodiment of FIG. 17, the multimedia processor system 502 and the non-nonvolatile memory 508 loaded with the demonstration software in combination with the display 405 and/or speakers 407 collectively form the smart device.

The ability of the multimedia user interface 500 to send or receive audio/video over a network enables some useful functionality for the appliance, especially during the execution of the demonstration software. FIG. 18 illustrates one possible implementation of the multimedia user interface 500 in the context of a demonstration of the appliance, which can be used to illustrate the variety of functionality that can be obtained by incorporating the smart device with the multimedia user interface 500. FIG. 18 illustrates a consumer 600 positioned in front of the appliance 400 having the multimedia user interface 500. The multimedia user interface 500 is coupled via the network adapter 494 over networks 602, 604 to a remote sales assistant center 606 and a remote service assistant center 608, respectively.

Various elements of the multimedia user interface 500 can be used to determine or sense the presence of the consumer 600 in front the appliance. For example, the camera 409 and microphone 411 can be used to detect or sense the presence of the consumer 600. The camera 409 can continuously or at intervals send images to the multimedia processor system 502 that can monitor the images for a change. When the change in the image is indicative of the presence of the human, the multimedia processor system 502 can make the determination that a human is present and start the execution of the demonstration software. There are many known software applications that can be used to process still or video images to determine if a person enters the view of the camera. This type of software can be loaded into the non-volatile memory 508 and run by the multimedia processor system 502 to determine the presence of the consumer.

In a similar manner, the microphone can send signals to the multimedia processor system 502, which can run a suitable software for determine if the sensed sound is indicative of the presence of a consumer 600 in front of the appliance 400. The determination can vary from very simple recognition, any sound different from the background sound, to more complex voice recognition, where the multimedia processor system not only looks for words or phrases that would indicate human presence, but also try and determine what is said. Again, there are many known software applications that can process sound in this manner. Such software can be stored in the non-volatile memory 508 and run by the multimedia processor system 502.

An additional benefit of the voice recognition is that it can also be used to determine the native language of the consumer 600. Once it is determined the language spoken by the consumer 600, this information can be passed to the demonstration software and the demonstration software can display all text in the native language of the consumer and all broadcast audio can be in the native language of the consumer. If the appropriate native language graphic and audio files are not stored in either the non-volatile memory 508 or dynamic memory 510, the appropriate files can be downloaded from the remote sales assistant center 606 or some other suitably accessible location and then stored in the dynamic memory for use in the sales demonstration and the displaying of the related multimedia presentation on the display 405.

In addition to determining the presence of a consumer 600, the multimedia user interface 500 can also be used to identify, uniquely or generally, the consumer 600 and this information can be used to customize the demonstration for the consumer 600. The identification can be done passively and/or actively. For example, a passive identification can be accomplished by using the camera 409 or microphone 411 to sense characteristics of the consumer 600 that can be used to identify the consumer. The camera 409 can capture an image, video or still, of the user and then analyze the image for identification. The image could be of a biometric of the user, such as a face scan, fingerprint, retinal scan, which can then be compared to a database, remote or local, for a match to uniquely identify the consumer. The microphone can capture a voice print of the user and similarly look for a match in the database.

In addition to biometric information, other information regarding the consumer can be determined from just an image and a voice file when processed by the appropriate software. Such information includes, but is not limited to, gender, age, height, mass, voice, facial expression, native language, eye color, and hair color. This information is generally not sufficient to uniquely identify a consumer, but it can be used to generally or categorically determine a consumer as belonging to a particular demographic.

The consumer identification can also include active identification. An example of active identification includes the demonstration software prompting the consumer for personal information, which can include, but is not limited to, name, address, age, identification number, credit card information, financial information, etc. The consumer 600 can enter the information via the touch screen 405 or by voice recognition using the microphone in response to prompts by the demonstration software.

Regardless of whether the consumer information is collected passively or actively and whether the consumer information is uniquely identify or generally identifying or a combination of both, the network adapter enables the multimedia user interface to connect to a remote consumer database containing such consumer information, which can be maintained at the remote sales assistant center 606 or similar location. The database can include a profile for a uniquely identified consumer 600. Information of the consumer 600 obtained during the demonstration can be added to the profile. If the consumer does not exist in the database, the biometric information can also be added as a new consumer and a profile can be started. The database can contain similar information for a generally or categorically identified consumer and a corresponding demographic profile.

Once the consumer 600 has been identified, uniquely or generally, the demonstration can be customized for the consumer 600. The customization can be done by selecting from demonstration instructions and presentation elements already stored in the multimedia user interface 500 or it can be downloaded from a remote location, including the previously discussed consumer database. The amount and type of customization is limited only by creativity and technology, but can include, without limitation, sales incentives, appliance recommendations, related-appliance recommendations, appliance accessories, appliance options, and appliance build options. For example, if the consumer is uniquely identified and his/her profile includes currently owned appliances, recommendations for new appliances can be made. Additionally, options of the currently owned appliances can be recommended on the appliance 400. A completely different or complementary appliance can also be recommended. The sales incentives can include price discounts, price bundles, financing options, etc.

The customization of the demonstration is anticipated to be done in real time, but it can be done by downloading an update to the standard demonstration software. The update can be thought of as a consumer-specific update regardless of whether the consumer is uniquely or generally identified. It is also possible for the entire demonstration to be downloaded to the appliance. For purposes of this application, the term downloading expressly includes streaming audio/video information.

The consumer information collected during the demonstration can be transferred to another appliance. The transfer can be direct in a peer-to-peer relationship or via a common database like the consumer database. As the appliance 400 has a network adapter 494, which can be wired or wireless, the appliance 400 can connect to other similarly configured appliances and transfer the information. An anticipated scenario where the information would be transferred is in the context of the sale of complementary appliances, such as a washer and dryer. If the consumer 600 is receiving a demonstration on one of the two complementary appliances, the consumer can be prompted to view the other complementary appliance, which can already be customized for the consumer 600. The other of the complementary appliance can even solicit the consumer 600 to the extent the appliance can identify the consumer 600. For example, if the name of the consumer 600 is known, the complementary appliance can use the speakers to 407 to call out the name of the consumer 600 to direct them to the complementary appliance. A more general solicitation, such as “Please look at me” or other similar wording, can also be used.

Another beneficial function of the multimedia user interface 500 includes being able to conduct a video conference using the display 405, camera 409, and microphone 411. One anticipated use includes providing a video conference link between a sales representative at the remote sales assistant center and the consumer 600. The sales representative can interact with the consumer 600. The interaction can be in the nature of a conversation where the sales representative can answer questions for the consumer 600. The sales person can also run the demonstration software in a manual mode where they sales person directs the sales demonstration, including the demonstration of the various components.

The sales representative can use the video conferencing to complete the sale of the appliance 400 to the consumer 600, including the collection of all personal information, financing, and delivery. The video conferencing can also be used to conference in other parties, such as the financial representative, delivery representative, and installers, without limitation. All of this information can be added to the profile for the consumer 600 in the consumer database.

Once the consumer has the product delivered to his/her home, the video conferencing functionality can be used to video conference with a remote service assistant center 608 where a representative, such as a technician, can assist the consumer 600 in installing, using, or repairing the appliance.

It should be noted that the video conferencing need not include both video and audio. While it is more desirable to have both video and audio, the video conferencing can be just audio, much like a telephone call.

FIG. 19 illustrates another implementation of the appliance 400. In this example, two appliances 400 are coupled to each other over communication networks 610 and 612, which are coupled via the Internet 614. In this configuration, the video conferencing functionality of the appliances 400 can enable videoconferencing between the consumers of the respective appliances 400. This use can be done at the sales room or once the consumer has the appliance in their home. Thus, it will be possible for consumers to use the appliances for a video conference, which can be done independently of or in conjunction with the use of the appliance.

While only two appliances 400 are shown in FIG. 19, several appliances can be joined in a video conference. It is also not necessary for the appliances 400 to connect over the Internet. The appliance 400 can be connected via the same network 610 or similarly connected networks.

While the video conferencing functionality is described in the context of the appliance 400 with the multimedia user interface 500 with the integrated smart device, it should be noted that the video conferencing functionally can be implemented using a non-integrated smart device as long as the non-integrated smart device contains the hardware and software for implementing a video conference. One example of such a suitable smart device is a cell phone as previously described and which incorporates a video camera.

While the invention has been specifically described in connection with certain specific embodiments thereof, it is to be understood that this is by way of illustration and not of limitation. Reasonable variation and modification are possible within the scope of the forgoing disclosure and drawings without departing from the spirit of the invention which is defined in the appended claims. 

We claim:
 1. A method of demonstrating an appliance comprising multiple components having corresponding functionality, at least one microprocessor controller with control logic coupled with the multiple components via an internal communications network to implement any of a plurality of predetermined cycles of operation performing a physical domestic operation on an article by way of a first software operating layer in a first operating state and wherein the control logic by way of the first software operating layer is rendered ineffective unless invoked by way of a second software operating layer, a multimedia user interface coupled to the microprocessor control, and memory connected to the internal communications network and in communication with the microprocessor controller and having updatable demonstration software comprising demonstration of a functionality of a feature of the appliance, the method comprising: executing the demonstration software on the microprocessor controller by way of the second software operating layer in a second operating state to bypass the control logic to effect a demonstration of a functionality of a feature of the appliance in the second operating state, independent of implementing or demonstrating any of the plurality of predetermined cycles of operation in the first software operating state and without performing the physical domestic operation on the article; and establishing a video conference over the multimedia user interface between a sales representative and a consumer to enable interaction between the sales representative and the consumer in conjunction with the demonstration of the functionality of the feature in the second operating state.
 2. The method of claim 1 wherein the sales representative controls the demonstration by interacting with the demonstration software.
 3. The method of claim 2 wherein the sales representative selects which of the multiple components to activate as part of the demonstration.
 4. The method of claim 1 wherein the sales representative sends information to the customer over the multimedia user interface.
 5. The method of claim 1 wherein the sales representative adds a current owner of the appliance to the video conference.
 6. The method of claim 5 wherein the current owner interacts with the consumer.
 7. A method of demonstrating an appliance comprising multiple components having corresponding functionalities, a microprocessor controller with control logic coupled with the multiple components via an internal communications network to implement any of a plurality of predetermined cycles of operation performing a physical domestic operation on an article by way of a first software operating layer in a first operating state, and a multimedia user interface coupled to the microprocessor controller, the method comprising: providing a smart device external to the appliance, comprising a memory and a controller having video conferencing functionality coupled to the internal communications network, and having a demonstration software capable of demonstrating at least one feature of the appliance, wherein the control logic by way of the first software operating layer is rendered ineffective unless invoked by way of a second software operating layer; executing the demonstration software on at least one of the microprocessor controller and the smart device controller by way of the second software operating layer in a second operating state to bypass the control logic to effect a demonstration of a functionality of a feature of the appliance in the second operating state, independent of implementing or demonstrating any of the plurality of predetermined cycles of operation in the first operating state and without performing the physical domestic operation on the article; and establishing a video conference over at least one of the smart device and the multimedia user interface between a sales representative and a consumer to enable interaction between the sales representative and the consumer in conjunction with the demonstration of the functionality of a feature in the second operating state of the appliance.
 8. The method of claim 7 wherein the sales representative controls the demonstration by interacting with the demonstration software.
 9. The method of claim 8 wherein the sales representative selects which of the multiple components to activate as part of the demonstration.
 10. The method of claim 7 wherein the sales representative sends information to the customer over the smart device.
 11. The method of claim 7 wherein the appliance is configured to perform a cycle of operation to complete a physical domestic operation on an article.
 12. The method of claim 1 wherein the appliance is configured to perform the cycle of operation to complete a physical domestic operation on an article. 